Remnant Fermi surface in the presence of an underlying instability in
  layered 1T-TaS_2

A. M. Woolley; B. Burk; B. Dardel; B. Dardel; B. Giambattista; F. Ronning; F. Zwick; H. Berger; H. Ding; H. Ding; H. W. Myron; J. A. Wilson; J. A. Wilson; J. Hayoz; J. Osterwalder; L. Schlapbach; M. Grioni; M. R. Norman; N. V. Smith; P. Aebi; P. Aebi; P. Fazekas; P. Fazekas; R. Claessen; R. Manzke; R. Manzke; T. J. Kreutz; T. Matsushita; Th. Pillo; Th. Pillo; Th. Pillo; Th. Straub; W. Han; X. Wu; X. Wu

research

Remnant Fermi surface in the presence of an underlying instability in layered 1T-TaS_2

Authors: A. M. Woolley
B. Burk
B. Dardel
B. Dardel
B. Giambattista
F. Ronning
F. Zwick
H. Berger
H. Ding
H. Ding
H. W. Myron
J. A. Wilson
J. A. Wilson
J. Hayoz
J. Osterwalder
L. Schlapbach
M. Grioni
M. R. Norman
N. V. Smith
P. Aebi
P. Aebi
P. Fazekas
P. Fazekas
R. Claessen
R. Manzke
R. Manzke
T. J. Kreutz
T. Matsushita
Th. Pillo
Th. Pillo
Th. Pillo
Th. Straub
W. Han
X. Wu
X. Wu
Publication date: 24 February 1999
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We report high resolution angle-scanned photoemission and Fermi surface (FS) mapping experiments on the layered transition-metal dichalcogenide 1T-TaS_2 in the quasi commensurate (QC) and the commensurate (C) charge-density-wave (CDW) phase. Instead of a nesting induced partially removed FS in the CDW phase we find a pseudogap over large portions of the FS. This remnant FS exhibits the symmetry of the one-particle normal state FS even when passing from the QC-phase to the C-phase. Possibly, this Mott localization induced transition represents the underlying instability responsible for the pseudogapped FS

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